程旺军,中共党员,甘肃静宁人,工学博士,副教授,硕士研究生导师
研究方向:(1)航空航天构件成形制造与焊接(机械工程、材料加工);(2)增材制造与生物力学(力学方向);(3)氢能储运设备安全智能管控(智能制造);(4)先进制造与装备质量、安全、效率与成本管理(工业工程与工程管理)
n个人及工作简历
2022.12-至今 新疆大学,机械工程学院,副教授,硕导;
2021.11-2024.12 新疆大学,机械工程,出站博士后;
2017.03-2021.10 哈尔滨工业大学,材料加工工程,工学博士;
2015.07-2017.02 中国重型机械研究院股份公司(原西安重型机械研究所),助工;
2012.09-2015.06 太原理工大学,材料加工工程,工学硕士;
2010.09-2012.07 太原理工大学,工程管理 (双学士学位),管理学学士;
2008.09-2012.07 太原理工大学,材料成型及控制工程,工学学士。
n科研项目
[1]主持国家自然科学基金地区项目(52365052),2024.01-2027.12,在研;
[2]主持新疆自治区重点研发专项(2024B01003-2),2024.12-2027.12,在研;
[3]主持中国博士后科学基金面上项目(2022M722666),2022.12-2024.12,结题;
[4]主持新疆自治区“天池英才”青年人才项目,2022.12-2025.12,在研;
[5]主持项目(2022D01C653),2022.12-2025.12,在研;
[6]主持新疆自治区优秀博士后项目,2023.06-2025.06,结题;
[7]主持新疆高校基本科研业务费(XJEDU2024P022),2024.01-2026.12,在研;
[8]主持太原理工大学横向1项,2022-2025,在研;
[9]主持哈尔滨工业大学横向1项,2022-2024,在研;
[10]参与丝绸之路经济带创新驱动发展试验区、乌昌石国家自主创新示范区科技发展计划项目,2023-2024,结题,骨干;
[11]参与国家重点研发计划“变革性技术关键科学问题”重点专项,2020-2025。
n学生培养成果
[1]指导研究生:2024年3名硕士获国家奖学金,1名硕士获自治区奖学金;
[2]指导本科生:2024年4名本科生保送985名校,1名本科生获新疆大学优秀本科毕业论文。
n学术及科研成果、专利、论文
(1) 代表性专著与学术论文
[1]Cheng Wangjun*, Cui Dongdong, Sun Yaoning. Cryogenic work-hardening behavior for a metastable austenitic stainless steel at liquid nitrogen temperature [J], Materials Science and Engineering: A, 2022, 816:144–352. (SCI, 一区,If=6.044)
[2]Cheng Wangjun*, Gao Qiang, Sun Yaoning, et al. Research progress of freezing processes and devices for fresh meat products[J]. International Journal of Refrigeration, 2024, 161: 71-82.(SCI,二区,If=3.5)
[3]Cheng Wangjun*, Zeng Yue, Cui Dongdong, et al. A novel method for the strain strengthening of metastable austenitic stainless steel dome by deep cryogenic forming[J]. Archives of Civil and Mechanical Engineering, 2024, 24(2): 120. (SCI, 二区,If=4.4)
[4]Cheng Wangjun, Liu Wei*, Yuan Shijian. Deformation behavior of Al-Cu-Mn alloy sheets under biaxial stress at cryogenic temperatures [J], Materials Science and Engineering: A, 2019, 759:357-367. (SCI,一区,If=6.044)
[5]Cheng Wangjun, Liu Wei*, Fan Xiaobo, Yuan Shijian. Cooperative enhancements in ductility and strain hardening of a solution-treated Al-Cu-Mn alloy at cryogenic temperatures [J], Materials Science and Engineering: A, 2020, 790: 139707. (SCI, 一区, If=6.044)
[6]Cheng Wangjun, Chi Chengzhong*, Wang Yongzhen, Lin Peng, et al. 3D FEM simulation of flow velocity field for a 5052 aluminum alloy multi-row sprocket in cold semi-precision forging process[J]. Transactions of Nonferrous Metals Society of China, 2015, 25: 926-935. (SCI, 一区, If=3.752)
[7] Yuan Shijian*, Cheng Wangjun, Liu Wei. Cryogenic formability of a solution-treated aluminum alloy sheet at low temperatures[J]. Journal of Material Processing Technology, 2021, 298: 117295. (SCI,一区, If=6.162)
[8] Yuan Shijian*, Cheng Wangjun, Liu Wei, Xu Yongchao. A novel deep drawing process for aluminum alloy sheets at cryogenic temperatures [J]. Journal of Material Processing Technology, 2020, 284:116743. (SCI, 一区, If=6.162)
[9]Zhang Hengyuan, Cheng Wangjun*, Yin Yuandong, et al. Microstructure and strengthening mechanism of a 316 stainless steel coating prepared by high-speed laser cladding on an aluminum alloy plate[J]. Archives of Civil and Mechanical Engineering, 2024, 25(1): 15. (SCI, 二区, If=4.4)
[10]Zeng Yue,Cheng Wangjun*, Xuechao, et al. LiHigh strength-ductility synergy in an austenitic stainless steel by laser processing[J].Materials Today Communications 2024,41:110329. (SCI,三区,If=3.7)
[11] Liu Wei*, Cheng Wangjun, Yuan Shijian. Analyses on formability and flow stress of an Al-Cu-Mn alloy sheet under biaxial stress at cryogenic temperatures [J], International Journal of Mechanical Sciences, 2021, 195: 106266. (SCI, 一区, If=6.772)
[12]Cheng Yu, Sun Yaoning*, Zhang Shilin, Cheng Wangjun, et al. Cheng Y, Sun Y, Zhang S, et al. Corrosion and wear resistance of inconel 625 and inconel 718 laser claddings on 45 steel[J]. Journal of Alloys and Compounds, 2025, 1013: 178368. (SCI, 二区,If=5.8)
[13]Cheng Wangjun, Chi Chengzhong*, Wang Yongzhen, Lin Peng, et al. Volume calculation of the spur gear billet for cold precision forging with average circle method[J]. International Journal of Coal Science & Technology, 2014, 1(4): 456-462. (SCI, 一区, T1)
[14]Cheng Wangjun*, Chi Chengzhong, Wang Yongzhen, Lin Peng, et al. Upper-bound and finite element analyses of a multi-row sprocket during cold semi-precision forging process[J]. International Journal of Coal Science & Technology. 2015, 2(3): 245-253. (SCI, 一区, T1)
[15]Acong Meng, Yaoning Sun*, Wangjun Cheng, et al. Discharge performance of Al-0.1Sn-0.1In-0.05Ga alloy for Al–air battery anodes[J]. Journal of Energy Storage, 2024,81: 110414. (SCI, 二区,If=8.9)
[16]Zhang Shilin,Sun Yaoning, Cheng Wangjun, Chen Yufeng , Gu Jin, Chen Gang. Microstructure and tribological behavior of CoCrFeNiMo0.2/SiC high-entropy alloy gradient composite coating prepared by laser cladding, Surface and Coatings Technology, 2023, 467: 129681.(SCI, 二区, If=5.4)
[17]Meng,Acong, SunYaoning, ChengWangjun, ZhaiZhenguo, JiangLiheng, Chong Zhenzeng, ChenYufeng, WuAnqi. Mechanism of hydrogen generation from low melting point elements (Ga, In, Sn) on aluminum alloy hydrolysis, International Journal ofHydrogenEnergy,2022, 47: 39364-75. (SCI,二区, If=7.2)
[18]Chong Zhenzeng, Sun Yaoning,Cheng Wangjun,Huang Liufei, Han Chenyang, Ma Xufeng, Meng Acong. "Laser Remelting Induces Grain Refinement and Properties Enhancement in High-Speed Laser Cladding Alcocrfeni High-Entropy Alloy Coatings. Intermetallics, 2022,150: 107686. (SCI, 三区, If=4.4)
[19]刘伟*, 程旺军, 郝永刚, 苑世剑. 铝合金超低温变形行为与成形新原理[J].中国有色金属学报, 2022,32(07): 1845-1854.(EI,材料工程)
[20]程旺军, 刘伟*, 胡蓝, 张志超, 徐永超. 2219铝合金拼焊板硬化方程的建立与液压成形过程分析[J].塑性工程学报, 2020, 27(10): 27-32. (中文核心, 机械工程T2)
[21] 程旺军, 张恒源,刘伟等. 6061铝合金薄壁管-法兰组合接头超低温局部胀-压连接规律[J].锻压技术, 2023, 48(05): 25-30+110.(通讯, 机械工程T2)
[22] 种振曾,孙耀宁,程旺军等. 纳米WC对AlCoCrFeNi高熵合金涂层耐磨与耐蚀性能的影响[J].材料导报, 2022, 36(14): 56-61.(EI,材料工程)
[23] 程旺军,崔栋栋,孙耀宁,曾月. 基于液氢储运的超低温不锈钢微观组织演变与力学性能研究进展[J].太阳能学报, 2024, 45(6):117-124.(EI)
[24]程旺军. Low-Temperature Performance and Manufacture of Metals [M]. 10.5772/intechopen.1007962. (参编英文专著)
(2)授权/申请发明专利
[1]程旺军, 孙绍凯, 任智硕, 等. 冷冻台. 2023.5(外观专利,授权:2023 3 0259027.2)
[2] 程旺军,王鹏博,孙耀宁, 等. 一种双金属复合管超低温下界面结合强度测试方法与装置. 2022.04 (发明专利,授权No. CN115060594B)
[3]孙耀宁, 程旺军, 孟阿聪, 等. 一种铝合金薄壁管与薄壁法兰超低温塑性连接方法与装置. 2022.03 (发明专利,授权 No. CN114713728B)
[4]孙耀宁, 孟阿聪, 程旺军. 一种水平井分段压裂中的封堵工具 2023.3(实用新型专利,授权:ZL 2023 2 0347843.3)
[5]程旺军,姜立恒,孙耀宁, 等. 一种铝合金薄壁锥形管与薄板超低温塑性连接方法及装置. 2022.03 (发明专利,受理 no. CN202210324511.3)
[6] 程旺军,陈玉锋,孙耀宁, 等. 一种奥氏体不锈钢板表面超低温滚动压印强化方法与装置. 2022.04 (发明专利,受理No. ZL20221033875.X)
[7] 程旺军,马子煜,高强,等. 一种不锈钢包铝质双金属环件径向局部热压塑性连接方法与装置. 2022.12 (发明专利,受理No. ZL202211587938.9)
[8]孙耀宁,孟阿聪, 程旺军,等. 一种用于制造可溶压裂球的铝合金及其制备方法. 2021.12 (发明专利,受理No. CN 202111507886.5)
[9]刘伟,程旺军, 苑世剑, 等. 一种铝合金超薄深腔曲面件超低温变形调控方法及装置. 2021.07 (发明专利,授权No. CN CN115193995A)
[10]刘伟,苑世剑,程旺军, 等. 一种大尺寸薄壁曲面件超低温成形装置及成型方法. 2021.05 (发明专利,授权No. CN 112845787A)
[11]程旺军, 左水利, 师波, 等. 一种轴向热拉伸柔性复合塑料高压输送管试验装置. 2018.11.27 (发明专利,授权No. CN 106053228B)
联系方式
邮箱:chengwangjun2008@126.com(优先)或chengwangjun@xju.edu.cn
地址:新疆乌鲁木齐市水磨沟区华瑞街777号新疆大学博达校区
邮编:830017
课题组学术氛围好、出成果快,欢迎机械制造、工程力学、材料加工、工程管理类等专业的研究生报考!
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